Apollo 12 Cold Cathode Ion Gage Experiment


Instrument Overview
===================
The Cold Cathode Ion Gage Experiment (CCIG, also referred to as the
Cold Cathode Gage Experiment, or CCGE) was deployed as part of the
Apollo Lunar Surface Experiments Package (ALSEP) on Apollos 12, 14, and
15.  It was designed to measure the density of neutral particles to
determine the amount of gas present at the lunar surface.  This data
helps constrain the source and loss mechanisms of the tenuous lunar
atmosphere.  A cold cathode ionization gage was used for this purpose.
The gage can determine the amount of gas present, expressed as
concentrations of particles per cubic cm or pressure in torr, but not
its composition.  The CCIG gage head was roughly 18 x 10 x 12 cm and
used 6.5 W.  The instrument consisted of the cold cathode ionization
gage and associated electronics.  The mass of the experiment package
was 5.7 kg.  (Note that the term ''Gage'', not ''Gauge'', was the
accepted use for this experiment.)

The CCIG gage unit was carried in a compartment of the SIDE instrument
and was removed and set up on the lunar surface by the deploying
astronaut. The gage unit was connected by a wrapped wire cable to the
SIDE package, because the CCGE and SIDE electronics comprise an
integrated system. On deployment, the stiffness of the cold wrapped
cable caused problems for proper location and orientation of the gage
head, but it was finally left with the sensor opening generally upward.

The cold cathode ionization gage is a cylindrical sensor unit in a
stainless steel envelope consisting of stainless steel coaxial
electrodes.  The cathode is a spool running through the center axis of
the cylinder.  A cylindrical anode surrounds the cathode, and both
electrodes are in an axial magnetic field of 0.09 Tesla (900 Gauss)
produced by a permanent magnet.  A magnetic shield is mounted around
the gage and its magnet.  A potential of +4500 volts was applied to the
anode by a power supply consisting of a regulator, converter,
voltage-multiplier network, and feedback network to the low voltage
supply.  This created a self-sustained Townsend discharge in the gage
in which electrons remained largely trapped in the magnetic field with
enough energy to ionize any gas particles they would strike.  The ions
would then be collected at the cathode, producing a current.  The
cathode was connected to an auto-ranging, auto-zeroing electrometer
that measured currents in the range 1.0E-13 to 1.0E-16 amps.  A
temperature detector was included to enable conversion of the readings
to equivalent pressure.

Baffles are mounted in the cylinder between the opening and the
electrodes.  A dust cover closed but did not seal the opening before
deployment and was pulled aside by the squib motor and spring on
command.  Because the CCIG was not evacuated, adsorbed gases produced
an elevated response at turn-on.  The gases escaped from the gage
rapidly at first and then slowly baked out during the lunar day.

The device was sensitive to gas density rather than pressure.  The
response varied somewhat with gas composition, but errors due to the
uncertainties in composition were expected to be within a factor of
two.  The data from the experiment have been expressed as equivalent
density for a nitrogen lunar atmosphere.  The CCIG had three
auto-switched, overlapping, sensitivity ranges enabling detection of
the lunar atmosphere from 2.E+5 to 1.E+11 particles/cubic cm
(equivalent nitrogen).  In the normal operational mode the basic cycle
repeated five measurements (separated by 2.4 s), three measurements
(separated by 40 s), and 16 seconds of calibration and auto-zeroing
every 2.5 min.  Temperature and other engineering functions were also
sampled within this 2.5-min cycle.  In a ground commanded special mode,
one measurement was obtained every 2.4 s, with no other measurements
being performed.  Additional details are available in the Apollo
Scientific Experiments Data Handbook, NASA TMX-58131, 1974 (revised
1976).

The Apollo 12 ALSEP central station was located at 3.0094 S latitude,
23.4246 W longitude. The CCIG was deployed approximately 15 meters
southwest of the central station and 185 meters NW of the Lunar Module.
It was turned on 19:18 UT on 19 November 1969. The readings were
initially saturated at full scale because of gas trapped within the
gage. After about 1 hour the reading was below saturation (4.0E-7 torr)
and dropping. The instrument recorded Lunar Module depressurization and an
astronaut approach and reached a level below 1.0E-8 torr before a
catastrophic failure occurred roughly 14 hours after turn-on. Ground
tests verified that a transistor failed in the high voltage control
circuit causing loss of the 4500-V power supply.
																									 

References
==========
Apollo 12 Preliminary Science Report, NASA SP-235, published by NASA,
Washington D.C., 1970.

Apollo Scientific Experiments Data Handbook, NASA Technical Memorandum
X-58131, JSC-09166, published by NASA Johnson Space Center, Houston,
Texas, Aug. 1974 (revised Apr. 1976).

Johnson, F.S., D.E. Evans, and J.M. Carroll, Chapter 9. Cold Cathode
Gage Experiment (Lunar Atmosphere Detector), Apollo 14 Preliminary
Science Report, NASA SP-272, pp. 185-192, Washington D.C., 1971.

Johnson, F.S., D.E. Evans, and J.M. Carroll, Chapter 13. Cold Cathode
Gage Experiment (Lunar Atmosphere Detector), Apollo 15 Preliminary
Science Report, NASA SP-289, pp. 13-1 to 13-5, Washington D.C., 1972.

Bates, J.R., W.W. Lauderdale, and H. Kernaghan, ALSEP Termination Report,
NASA Reference Publication Series, NASA RF-1036, published by NASA Johnson
Space Center, Houston, Texas, Apr. 1979.


Source
======
The NASA Space Science Data Coordinated Archive (NSSDCA, formerly NSSDC) 
provided this description.